You can now use an Attachment option on a rigid domain, making it easier to switch between a rigid representation and an elastic representation. This is useful for extracting system matrices represented in a modal base for large multibody dynamics models. The Modal Reduced Order Model study type is now supported in the Multibody Dynamics interface. Voir la copie d'écran Modal Reduced Order Model Study Type Similarly, the two gears in a Gear Pair node and the two parts joined in a Spring-Damper node will also be highlighted when you select those corresponding nodes. This provides feedback on the correctness of the source and destination selections. When you select a Joint node in the model tree, the selected objects are now automatically highlighted in the Graphics window. When working with complex assemblies in the Multibody Dynamics interface, there may be many joints where each contains the selection of two rigid domains or attachments. Highlighting Selections in Multibody Dynamics Analyses Learn more about these tutorials and other multibody dynamics modeling improvements below. Updated COMSOL examples include boundary layer flow, non-Newtonian flow, jet flow, lathe flow, lubrication, momentum diffusion, flow through an orifice plate parallel plate flow, turbulent flow, and more.Ĭhapter 1: Introduction to Fluid Mechanics 3ġ.1 Fluid Mechanics in Chemical Engineering 3ġ.3 Stresses, Pressure, Velocity, and the Basic Laws 5ġ.For users of the Multibody Dynamics Module, COMSOL Multiphysics ® version 5.3 brings a tutorial model that combines multibody dynamics with acoustics to simulate noise in a gearbox as well as a tutorial that combines the Multibody Dynamics Module with the AC/DC Module to simulate an induction motor. These chapters start with a simple derivation of the Navier-Stokes equation (NSE), and then introduce assumptions for various flow geometries, helping students reduce equations for easy solution - analytically, or numerically with COMSOL. Next, he moves to a microscopic approach, introducing key principles for modeling more advanced systems and solving industry or graduate-level problems. The first four chapters derive equations needed to size chemical plant equipment, including pipes in packed beds, pumping installation, fluid flow measurement, filtration, and cyclone separation. Wilkes starts with a macroscopic approach, providing a solid foundation for sizing pumps and operating laboratory and field scale equipment. Throughout, he presents more than 300 problems of incrementally greater difficulty, helping students build mastery through realistic practice. Wilkes has updated his expert hands-on fluid mechanics tutorial with a complete introduction to the popular COMSOL Multiphysics 5.2 software package, and ten new COMSOL 5.2 examples.īuilding on the text that earned Choice Magazine’s prestigious Outstanding Academic Titles award, Wilkes offers masterful coverage of key fluid mechanics topics including computing turbulent flows, bubble motion, two-phase flow, fluidization, microfluidics, electro-kinetic flow effects, and computational fluid dynamics. Fluid Mechanics / Hydrology / Hydraulics >įluid Mechanics for Chemical Engineers: with Microfluidics, CFD, and COMSOL Multiphysics 5, 3rd Edition.The sustainability workforce & education hub.Career Readiness & Employability Skills.Pearson author roundtable on digital learning.MyLab IT: preparing students for certification.Engaging students with interactive figures.Co-requisite/Accelerated Learning Model.Choosing the Right Solutions for Your Redesign.Teacher Education & Helping Professions.Engineering, Computer Science & Programming.Using a Team-Based Approach to Learning.Downloading and using instructor resources.Sign in to download instructor resources.Engineering Technology & Industrial Management.Construction Management & Civil Technology.
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